Dispensing pump



Sept. 3, 1940. c, s, Z D 2,213,278

DISPENSING PUMP Filed Aug. 28, 1937 2 Sheets-Sheet 1 z 14 F/# O a J 58 60 I 150 I/ a 67 m 160 2 72 2s 1 155 I 55 152 W 114 142 70 5 9 um I i- Q "Wm UH! VII?! i Z 34 m 152 162 i J i i NVENTOR A fiarlzsiflazard ,/4 n% Z5 ATTORNEYS I P 1940- c. s. HAZARD 2,213,278

DISPENSING PUMP Filed A g. 28, 19s"! 2 Sheets-Sheet 2 INVENTOR [hf/as 5 Hazard Wm r ATTORNEY Patented Sept. 3, 1940 UNITED STATES PATENT OFFICE DISPENSING PUMP Jersey Application August 28, 1937, Serial No. 161,393

6 Claims.

This invention relates to liquid dispensing devices, and particularly to dispensing devices having indicators or registers which indicate the volume and/or price of the liquid dispensed during a transaction, and which are adapted to be automatically reset to initial or zero position between each dispensing transaction.

In my copending application Serial No. 83,030

filed June 2, 1936, now Patent No. 2,109,353 dated February 22, 1938, I have disclosed a dispensing device which includes one or more registers or indicators actuated in response to operation of a liquid metering device. Liquid is delivered to the metering device by a motor driven pump, the motor also serving to supply energy for resetting the indicator during the intervals between dispensing transactions. This dispensing device is also provided with a liquid by-passing system which diverts the liquid from the meter so during the interval that the indicator is being reset to zero position, thereby preventing the dispensing of liquid during the resetting operation.

I have discovered that, since the resetting operation is usually of short duration, the liquid i by-passing system 'may be eliminated without disturbing the operation of the device if a suitable type of pump is used for delivering the liquid and if a warning means is provided for indicating that the indicator is being reset. The Wam- 9 ing means serves to notify the attendant when the resetting operation is concluded and therefore restrains him from dispensing liquid during the resetting operation.

The principal object of the invention, therefore,

v is to provide an automatically resettable registering or indicating means, which includes means for signalling during the resetting operation.

A further object of the invention .is to provide signalling means for the resettable indicators of t; dispensing pumps which indicate visually and/or audibly when the resetting operation is concluded by the return of the indicator to zero indication.

The objects of the invention have been attained by providing the registers for dispensing 1 pumps which have automatically operable resetting means with visible and/or audible signalling devices, such as bells, lights, signal plates, or shutters which are actuated by the resetting means with visible and/or audible signalling devices, such as bells, lights, signal plates, or shutters which are actuated by the resetting means during and/or at the conclusion of a resetting operation to advise the operator when a dispensing transaction may be begun.

In the embodiment of the invention which is more specifically described later, the resetting means includes a clutch having a shiftable element for automatically connecting a motor and an indicator to reset the indicator and disconnecting them at the conclusion of a dispensing 6 operation. The shiftable clutch element is operatively connected to signalling means for rendering the signal operative during or at the conclusion of the resetting operation.

Other forms of the invention will become ap- 10 parent to those skilled in the art from a disclosure of a typical form of the invention, such as is shown in the accompanying v drawings, in Which:

Figure 1 is a sectional view of a dispensing de- 15 vice embodying the present invention with parts thereof broken away;

Figure 2 is a view in section taken on line 2-2 of Figure 1 with a nozzle of the dispensing hose removed from the hose support and with parts broken away;

Figure 3 is a broken sectional view taken on line 3-3 of Figure 1;

Figure 4 is a view in detail of a portion of the register;

Figure 5 is an enlarged sectional view of a detail of the register partly broken away;

Figure 6 is an enlarged end view of an element of the resetting mechanism;

Figure '7 is a side view of the element shown in Figure 6; and

Fi ure 8 is a side view of a modified form of signalling device shown partly in section and partly broken away.

One form of my novel signalling mechanism is shown in Figure 1 as applied to a dispensing device of the type disclosed in my copending application Serial No. 83,030 filed June 2, 1936. This form of dispensing apparatus includes a housing A in which is mounted a pump 2 actuated by a motor 4 for delivering liquid from a source of supply by means of a conduit 6 to a meter 8 of any desired type. The liquid passes from the meter 8 to the usual dispensing hose l 0 from which the liquid may be dispensed under the control of a hand operated valve l2 in the nozzle I l.

The pump 2 may be of any suitable type which allows a slippage of liquid therein, such as, for example, a centrifugal pump or a pump provided with a leakage port and valve whereby the pump is enabled to continue operation without delivering liquid to the meter if a back pressure, such as will be produced by closing the hand valve I2,

is created in the conduits.

The meter, during passage of liquid therethrough, actuates a register generally indicated as B for indicating to the customer the quantity of liquid dispensed and/or the cost .of the liquid dispensed as may be desired. Operation of the meter by passage of liquid therethrough causes rotation of a shaft 20, which through suitable gearing 22 rotates a shaft 24 which is journalled in the side plates 26 and 28 of the register. The shaft 24 carries a gear 30 which is frictionally clutched to the shaft 24, and meshes with a drive gear 32 keyed to the main drive shaft 34 of the register. The main drive shaft 34 is journalled in the side plates 26 and 28 and carries at its left-hand end a gear 36 which, by means of an idler gear 38 and gear 40 which is fixed to the units drum 42 of the register B, causes a displacement of the units drum through one complete revolution for every gallon of liquid dispensed. The idler gear 38 and the gear 40 are rotatably mounted upon shafts 44 and 46 respectively, which are also journalled in the side plates 26 and 28 of the register. The tens drum 50 and the hundreds drum 52 are supported for rotation relative to the shaft 46 and are driven by means of suitable Geneva gearing 54 to indicate respectively tens and hundreds of gallons of liquid delivered.

The Geneva gearing is best shown in Figures 4 and 5, and is identical for each of the successive drums. Each Geneva gear device consists of a mutilated gear 58 which meshes with and rotates a pinion 60. The pinion 60 is rotatably mounted on the sleeve 62 of a similar pinion 64, which is in turn rotatably mounted upon a shaft 66 fixed in the side walls 26 and 28 of the register casing. The pinion 60 is provided with a flange which bears against one side of the mutilated gear 58 and therefore is retained against axial displacement relative to the mutilated gear 58. The pinion 64 is provided with outwardly tapering teeth which engage between the teeth of the pinion 60 to cause them to rotate together when they are in engagement. The pinion 64 and its sleeve 62 are mounted between the arms 68 and I0 of a yoke member I2, which is shiftably mounted upon pins 14 extending inwardly from the side plates 26 and 28 of the register housing. As viewed in Figure 5, a downward shifting of the yoke I2 will cause downward movement of pinion 64 relative to the pinion 60 and will free them for independent rotation. The pinions 60 and 64 are, however, normally retained in driving engagement by means of a spring I6 having its opposite ends fixed to the side plate 28 and a pin I8 carried by the yoke I2. The pinion 64 meshes with a gear ,I'I fixed to a sleeve 19 for driving the tens drum 50 or the hundreds drum 52 by means of suitable gearing. It will be seen that by shifting the yoke I2 the units drum 42, the tens drum 50 and the hundreds drum 52 may be released for independent rotation and simultaneous return to zero or initial position.

As best shown in Figures 1, 2, 6 and 7, I have provided automatically operated means for returning the numeral drums to zero position. This automatic resetting means, generally indicated as C, may consist of a clutch mechanism connected with the main drive shaft 34 of the register and the pump motor 4. Also, suitable pickup mechanisms are provided for returning the indicating drums to zero position upon rotation of the main drive shaft 34 by means of the clutch and motor 4. As previously mentioned and shown in Figure 5, the yoke I? is Shiitable against the tension of the spring 16 to move the pinions out of engagement to allow simultaneous rotation of the units, tens and hundreds indicating drums. Upon rotation of shaft 34, the drive gear 32 and the associated mutilated gear 58 are rotated. The mutilated gear carries a pawl 80 which engages a single toothed ratchet 82 associated with the next higher indicating drum and causes them to rotate together towards zero position. Between each mutilated gear 58 and each drive gear 32 is disposed a notched plate 86, which is engaged by a pawl 88 pivotally supported between the side plates 26 and 28. Each pawl 88 is rigidly connected with the other two similar pawls and as a unit is adapted to drop into the notches in the plates 86 when the indicating drums 42, 50 and 52 are at zero position.

The clutch mechanism C is actuated by the motor 4 by means of a chain or belt 90, which also connects the motor 4 to the pump 2. Operation of the motor 4 drives the chain 90 to rotate bevel gears 92 and 94, the latter being fixed to a shaft 96 which is journalled on the side plate 28 of the register. The shaft 96 carries a bevel gear 98 at its upper end which meshes with and drives a bevel gear I00 and a barrel gear I02. The barrel gear I02, which is mounted on a shaft I04 rotatably mounted in the meter housing, engages and drives a large gear I06. The large gear I06 is fixed to a collar I08. As best shown in Figure 2, the collar I08 includes a clutch element H0 and is slidable along and journalled on a sleeve H2. The sleeve H2 as shown in Figures 6 and 7 includes a flange H4 having longitudinally extending clutch lugs II 8 thereon, which cooperate with the clutch element H0 in one position of the collar I08. The sleeve II 2 is also provided with spaced cam faces H8 which serve to move the sleeve lengthwise of a shaft I20. The sleeve H2 is supported for rotation on an enlarged portion of the shaft I20, which is fixed to the main drive shaft 34 of the register. One end of the enlarged shaft I20 is journalled in a bracket I22 fixed to the frame A. The shaft I20 is also provided with a flange I 24 and carries a spring I26 which is disposed between the flange I24 and the end of the sleeve H2, thereby normally forcing the flange H4 into engagement with the housing I28 which is also fixed to the shaft I20. The cam faces II 8 are thus forced'into engagement with the rollers I30 which are rotatably mounted ona pin I32 which passes through the shaft I20. The spring I26 normally acts to force the rollers I30 into the valleys of the cams I I8, and causes the sleeve I I 2 to rotate with the shaft I20. However, when the register B is locked in zero position by engagement of the pawls 88 in the notches in the plates 86, and the sleeve H2 is rotated relatively to the shaft I20 by motor 4, the cam faces H8 ride up on the rollers I30 displacing the sleeve H2 and the collar I08 to the right, as viewed in Figure 2.

Engagement and dis-engagement of the clutch elements H0 and H6 are controlled by any suitable means such as the hose support I32, which is pivotally mounted between lugs I34 fixed on the frame plate 28. The hose support I32 is provided with a cam lug I36 on its lower edge, a lever I38 on its upper edge, and a U-shaped lever I40 projecting downward from a point adjacent the lugs I34. The cam lug I36 cooperates with a pin I42 which is fixed to a yoke I44, the latter being pivotally mounted on the housing A. The arms of the yoke I44 are disposed within the collar I08 and are normally urged by a spring I46 in a counterclockwise direction, as viewed in Figures 1 and 2. The pin I42 and cam lug I36 retain the yoke I 44 in the position shown in Figure 1, except during a resetting operation. In the position shown, the clutch element III] and the clutch lugs II6 are disengaged allowing the register B to be operated by the meter 8.

The spring I46 normally tends to cause the clutch elements H0 and H6 to engage. The yoke I44 carries rollers I48 which engage within the collar I08 to reduce the friction therebetween as the collar is rotated by the motor 4. The upwardly projecting lever I38 on the hose support I32 engages a pin I 50, which is mounted for free sliding movement in the frame plate 28 and engages the yoke I2, whereby upward movement of the hose support will shift the yoke 12 to the left to disengage the pinions 60 and 64. The U-shaped lever I40 is connected by means of a link I52 to the pawls 88 whereby upward movement of the hose support-in initiating the resetting operation will permit the pawls 88 to drop and enter the notches in the disks 86 when the indicating wheels reach zero position.

The motor 4 may be started and stopped by means of a switch I54 which is connected by a link I56 to a pin I58 which is mounted on one arm of a bell crank lever I60, and extends across the top of the hose support I 32. When the nozzle I4 is placed upon the support I32, 2. portion of the nozzle engages a pin I62, which is slidably mounted in the housing A and shifts it to the left, thereby rocking the bell crank lever I60 about its pivot and moving the switch to "ofi position.

Removal of the nozzle I 4 from the hose support I32 followed by upward movement of the hose support rocks the bell crank lever I60 in a clockwise direction, starting the motor and at the same time releases the yoke I44 for movement to the left as viewed in Figure 1, thereby engaging the clutch elements III] and II 6 to rotate the main drive shaft 34 of the register. Simultaneously with upward movement of the hose support I32, the upwardly projecting lever I38 will shift the pin I50 and the pinion yoke I2, releasing the indicating drums for rotation to zero position.

The movement of the yoke I44 is utilized to actuate a signalling device during return of the indicator to zero position. The signalling device illustrated in Figure 1 may consist of a bell or gong I64 mounted upon an extension of the yoke I44. A suitable clapperi66 for the bell is fixed to shaft I04 so that the clapper will strike the bell when the yoke I44 is in its resetting position. When the yoke I44 is rotated to the position disclosed in Figure 1, the clapper I66 does not engage the bell or gong I64.

If desired, a visual signalling device may also I be provided for actuation during resetting of the register B. This construction (Figure 8) may consist of a light I68 provided with a switch I10 of the push button type, which is connected by means of a link to the upper end of the yoke I44, whereby the light may be turned on during the resetting operation and turned oif at the concluslon of the resetting operation.

Another form of signalling means is disclosed in Figure 8, this' construction consisting of a gong I'I4 mounted on the housing A of the dispensing device. A clapper H6 is fixed to .a shaft "8 which is rotatably mounted in bearings I on the pump housing. A coil spring I82 encircling the shaft 'I'I8 normally urges the clapper I76 into engagement with the gong I14. The shaft I78 is provided with a single tooth ratchet I84 having the tooth disposed substantially vertically which is engaged by a pawl I86 pivotally connected to the upper end of the yoke I44. The outermost end of the pawl I86 is provided with a cam surface I88 which bears against a pin I 90 arranged parallel to the meter housing. The cam surface I88 and pin I90 are so related that when the yoke I44 reaches its righthand position the pawl I86 is moved out of engagement with the ratchet I84. During movement of the pawl to the right, energy is stored in the spring I82 to return the clapper into engagement with the gong I I4 when the pawl I86 clears the ratchet Movement of the yoke I44 in a counterclockwise direction will cause the pawl I86 to again engage the ratchet I84 preparatory to moving it away from engagement with .the gong In operation, when the hose support I32 is lifted the motor 4 is started, the clutch elements H0 and H6 engage, and the indicator wheels 42, 50 and 52 are released for return to zero position. The motor 4 through the resetting mechanism C returns the indicator to zero position, at which time the pawls 88 will prevent further rotation of the main drive shaft 34. The cam faces I I8 on the sleeve II2 then rotate relative to the shaft 34 and because of their engagement with the rollers I30 will displace the collar I08 to tive to the rollers I 30 until the latter disengage the crests of the cams. The sleeve II 2 will then be moved to the left by the spring I26, disengag ing the clutch elements H0 and H6 and disconnecting the register B from the motor 4. During the time that the yoke is in its counterclock wise displaced position, the light I68 will be lighted and/or the audible signalling means comprising the gong I64 and clapper I66 will be ac-' tuated. However, when the yoke is returned to its right-hand or clockwise position, the circuit in the light I68 will be broken and the gong I 64- will be moved out of position in which the clapper can engage it.

The operation of the audible signal device disclosed in Figure 8 is similar, with the exception that during the resetting operation no sound is produced. At the conclusion of the dispensing operation the gong I14 is struck by the clapper M6 to give an audible indication that the indicator has been returned tozero position.

It will be understood from the preceding description that I have provided a simple organization which effectively and positively indicates the condition of the indicator during and/or-at the conclusion of a dispensing operation. It will also be understood that the above described examples of my invention may be modified in many ways such as by providing other types of signalling devices and by actuating the signalling devices by other means than those disclosed. Therefore, the embodiments described above should be considered as illustrative only and not as limiting the scope of the following claims.

I claim:

tion of means for pumping liquid, an indicator movable away from an intitial position in proportion to the quantity of liquid dispensed, means for resetting the indicator to the initial position, means for actuating the liquid pumping means and the means for resetting the indicator including a .movable clutch element, and signalling means operatively connected to and actuated in response to movement of the clutch element during resetting of the indicator.

2. In a liquid dispensing "device, the combination of an indicator movable away from an initial position in proportion to the-quantity of liquid dispensed, means for resetting the indicator to initial position, means for actuating the resetting means including a movable clutch element, andliquid while the indicator is beingreset to position.

4. In a liquid dispensing device, the combination of means for delivering liquid, an indicator.

movable away from an initial position in proportion to the quantity of liquiddelivered, means for resetting the indicator to said initial position, common means for simultaneously actuating the liquid delivering means and the resetting means, and signal means operatively connected to said resetting means to provide two distinguishable signals, said signal means being adapted to give one of said signals during a resetting Operation and to give the other of said signals at the conclusion of the resetting operation.

5. In a liquid'dispensing device,'the combination of means for delivering liquid-an indicator movable away from an initial position in proportion to the quantity of liquid delivered, means for resetting the indicator to said initial position, common means for simultaneously actuating the liquid delivering means and the resetting means, meansoperatively connected to and actuated by the resetting means for giving a visual signal tothereby restrain the attendant from making a delivery while the indicator is being reset and means operatively connected to the resetting means for giving an audible signal at the conclusion of a resetting operation.

6. In a liquid dispensing device, the combination of means for delivering liquid, an indicator movable away from an initial position in proportion to the quantity of liquid dispensed, means for resetting the indicator to initial position, means including a movable element for simultaneously actuating said delivery means and said resetting means, and signalling means operatively connected to and actuated"in response tomovement of said element during a resetting operation.

CHARLESS. HAZARD.

CERTIFICATE OF CORRECTION. Patent No. 2,215,278. September 5, 191m.

CHARIES S. HAZARD.

It is hereby certified that error appears in the printed specification of the above numbered patent requiring correction as follows: Pege 1 first column, lines 14.9, 50 and 51, strike out the words "with visible and/or audible signalling devices, such as bells, 11 m signal plates, or shutters which are actuated by the resetting means" 3 and that the said Letters Patent should be read with this correction'therein that the same may conform to the record of the case inthe Patent Office. I

Signed and sealed this" 1st day of October, A. D. 1914.0.

Henry Van Arsdale (Seal) Acting Commissioner of Patents. 

